J/A+A/587/A93 MeV-GeV counterparts of TeV sources (Rappoldi+, 2016)
Search of MeV-GeV counterparts of TeV sources with AGILE in pointing mode.
Rappoldi A., Lucarelli F., Pittori C., Longo F., Cattaneo P.W.,
Verrecchia F., Tavani M., Bulgarelli A., Chen A.W., Colafrancesco S.,
Donnarumma I., Giuliani A., Morselli A., Sabatini S., Vercellone S.
<Astron. Astrophys., 587, A93-93 (2016)>
=2016A&A...587A..93R 2016A&A...587A..93R (SIMBAD/NED BibCode)
ADC_Keywords: Gamma rays
Keywords: catalogs - gamma rays: general
Abstract:
Known TeV sources detected by major,Cerenkov telescopes are
investigated to identify possible MeV-GeV γ-ray counterparts. A
systematic study of the known sources in the web-based TeVCat catalog
has been performed to search for possible γ-ray counterparts on
the AGILE data collected during the first period of operations in
observing pointing mode. For each TeV source, a search for a possible
γ-ray counterpart that is based on a multi-source maximum
likelihood algorithm is performed on the AGILE data taken with the
GRID instrument from July 2007 to October 2009. In the case of
high-significance detection, the average γ-ray flux is
estimated. For cases of low-significance detection the 95% confidence
level (CL) flux upper limit is given. 52TeV sources out of 152
(corresponding to ∼34% of the analysed sample) show a significant
excess in the AGILE data covering the pointing observation period.
This analysis found 26 new AGILE sources with respect to the AGILE
reference catalogs, 15 of which are galactic, 7 are extragalactic and
4 are unidentified. Detailed tables with all available information on
the analysed sources are presented.
Description:
The analysis described in this paper has been applied to a reference
sample of TeV sources extracted from the online TeVCat catalog
(http://tevcat.uchicago.edu/ (Wakely S., and Horan D.). This online
catalog is continuously updated with new sources detected by TeV
experiments, and for each source it provides many parameters such as
coordinates, source type, flux, and estimated distance (when
available).
The analysis has been performed using the data collected by the main
AGILE instrument, the Gamma-Ray Imaging Detector (GRID).
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
tablea1.dat 111 152 152 TeV sources considered in this analysis.
tablea2.dat 133 52 Results for all the sources detected with AGILE
in this work, according to the criteria
described in the text
--------------------------------------------------------------------------------
See also:
J/A+A/506/1563 : First AGILE catalog of gamma-ray sources (Pittori+, 2009)
J/A+A/553/A33 : AGILE Mini-Calorimeter gamma-ray burst catalog (Galli+, 2013)
J/A+A/558/A137 : AGILE bright gamma-ray sources updated list (Verrecchia+ 2013)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: tablea1.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 I3 --- ID [1/152] Sequential number
4 A1 --- f_ID [*] * indicates sources passing the
detection criteria discussed in
Sect. 5.2
6- 17 A12 --- TeVName TeV source name (TeVJHHMM+DDd)
19- 20 I2 --- n_ID ? Note on ID (2)
22- 29 F8.4 deg GLON Galactic longitude
31- 38 F8.4 deg GLAT Galactic latitude
39 A1 --- n_pos [*] Note on position (1)
41- 46 F6.4 deg e_pos ?=- Error on position
48- 69 A22 --- Name Canonical name
71- 86 A16 --- Type TeV source classification type (3)
88- 91 F4.1 --- sqrt(TS4) ? Estimate of the γ-ray
statistical significance at Step 4
93- 96 F4.1 --- sqrt(TS3) ? Estimate of the γ-ray
statistical significance at Step 3
98-101 F4.1 10-7ph/cm2/s Fgamma ? γ-ray flux (E>1000MeV) at Step 4
103-105 F3.1 10-7ph/cm2/s e_Fgamma ? rms uncertainty on F(E>1000MeV)
107-109 F3.1 10-7ph/cm2/s UL ? AGILE γ-ray flux upper limit at
95% confidence level at the input TeV
source position from Step 4
at Step 4
111 A1 --- Ext [X] X for TeV source extension
--------------------------------------------------------------------------------
Note (1): *: best-fit position of the TeV excess is not available and the
position of the optical/radio known counterpart has been used
Note (2): Individual notes as follows:
10 = The sources TeVJ0222+430 and TeVJ0223+430 are as close as 0.1° and
therefore indistinguishable in this analysis. Their detection is
counted as one.
11 = Results of a refined MLE analysis performed using the updated AGILE
best-fit position of the Crab Nebula (one of the known γ-ray
sources within 10 deg from the TeV J0521+211 position) obtained in
this work.
12 = The TeV error region for the Vela X PWN does not overlap the AGILE Vela
Pulsar position error, hence the Vela PSR average γ-ray flux
value for a spectral index of -1.69 was subtracted in the MLE automatic
analysis. However the result is affected by the very intense Vela Pulsar
nearby. The Vela X accurate γ-ray flux estimate and source
location by AGILE is discussed in the dedicated analysis in
(Pellizzoni et al., 2010Sci...327..663P 2010Sci...327..663P).
13 = Also in this case, the MLE automatic analysis is affected by the very
intense Vela Pulsar nearby. A dedicated analysis will be performed.
14 = Detected by AGILE during a flaring episode (Verrecchia et al.,
2008ATel.1582....1V 2008ATel.1582....1V).
15 = Detected by AGILE during several flaring episodes (Bulgarelli et al.,
2010ATel.2641....1B 2010ATel.2641....1B; Striani et al., 2010ATel.2686....1S 2010ATel.2686....1S;
Verrecchia et al., 2014ATel.6733....1V 2014ATel.6733....1V).
16 = The region of the MLE analysis is not yet well modelled since this source
shows a point-like core and extended emission from the lobes, which are
not yet included in the AGILE reference catalogs. A dedicated analysis
will be performed.
17 = AGILE detection presented at the 32nd ICRC (Lucarelli et al. 2011, in
32nd International Cosmic Ray Conference, Bejing, China, 7, 236).
18 = Source located in a crowded region of the Galactic plane. The automatic
MLE analysis is not reliable. A dedicated analysis will be performed.
19 = Source located in the region near the Galactic Center. The automatic MLE
analysis is not reliable. A dedicated analysis is being performed with
an improved AGILE diffuse background model in the Galactic center region
(Fioretti et al., in prep.).
Note (3): TeV source classification types as follows:
PWN = Pulsar Wind Nebulae
BIN = Binary
SNR = SuperNova Remnant
Sbs = StarBursts
UNID = UNIDentified
FSRQ = Flat Spectrum Radio Quasar
HBL = High frequency peaked BL Lac object
IBL = Intermediate frequency peaked BL Lac object
LBL = Low frequency peaked BL Lac object
XRB = X-Rays Binary
WR = Wolf-Rayet star
FRI = Fanaroff-Riley type I
GC = Globular Cluster
MC = Molecular Cloud
PSR = Pulsar.
Note that the γ-ray emission detected in the search of counterparts to
the TeV emission from PWN is in general due to the average (pulsar + nebula)
γ-ray flux values. Timing analysis of pulsars was not performed in
this paper.
--------------------------------------------------------------------------------
Byte-by-byte Description of file: tablea2.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 I3 --- ID Identification number
5- 18 A14 --- TeVName TeV source name
(TeVJHHMM+DDd or TeVJHHMM+DDMM) (1)
20- 23 F4.1 --- sqrt(TS) Estimate of the γ-ray statistical
significance as result of the AGILE MLE
analysis
25- 30 F6.2 deg GLON ?=- Galactic longitude optimised peak
position of the AGILE excess
33- 38 F6.2 deg GLAT ?=- Galactic latitude optimised peak
position of the AGILE excess
40- 43 F4.2 --- e_pos ?=- γ-ray source location error
radius at 95% CL from Step 3
(statistical error only) (2)
47- 50 F4.1 10-7ph/cm2/s Fgamma Estimate of the γ-ray flux
(E>100MeV) at the optimised peak position
52- 54 F3.1 10-7ph/cm2/s e_Fgamma ?=- rms uncertainty on F(E>100MeV)
56- 58 F3.1 deg Dist ?=- Distance of the γ-ray peak
position from the input position of the
TeV source
60- 82 A23 --- AGILE AGILE association: already known AGILE
source from the published 1AGL/1AGLR
catalogs within the error radius in
the 7th column
84-130 A47 --- Fermi Fermi association(s): known Fermi-LAT
source(s) associated to the TeV source,
as described on 3FGL catalog
132-133 A2 --- Flag Analysis flag (3)
--------------------------------------------------------------------------------
Note (1): The upper part reports the results of the MLE analysis, Step 3, and
the lower part the results of Step 4.
Note (2): The AGILE team recommends adding a systematic error of ±0.1°
linearly.
Note (3): Analysis flag as follows:
IN = (Inside): the TeV source, including its extension (if any), is entirely
within the AGILE contour (see an example in Fig. 4);
O = (Overlapping): the AGILE contour at the 95% CL overlaps with the error
circle and/or the extension of the TeV source (see Fig. 5);
E = (External): the AGILE contour neither includes nor overlaps with the TeV
source. Nevertheless, the AGILE peak position is within 0.6° from
the TeV source position (see Fig. 6).
--------------------------------------------------------------------------------
History:
From electronic version of the journal
(End) Patricia Vannier [CDS] 19-May-2016